JP6232682B2 - Grommet - Google Patents

Description

  The present invention relates to a grommet having a watertight engagement portion and an exterior cylinder portion.

  For example, when a wire harness (linear member) is inserted into an opening formed in a vehicle panel, contact between the opening and the wire harness is prevented, and further, moisture is prevented from entering the panel. Therefore, a grommet is used (for example, refer to Patent Document 1 below). Hereinafter, the configuration and structure of a conventional grommet will be described.

  In FIG. 10, one grommet and one grommet are known. First, the grommet 101 of one object as shown in FIG. 10A will be described. The grommet 101 is a molded product of rubber, and one end is attached to the panel 102 of the automobile, and the other end opens and closes. It is attached to a back door (not shown). The grommet 101 is provided to cover the wire harness 103 routed across the panel 102 and the back door. The grommet 101 includes a panel engagement portion 104 and an exterior cylinder portion 105 that is continuous with the panel engagement portion 104.

  The panel engaging portion 104 is formed as a portion that is watertightly engaged with the panel 102. On the other hand, the exterior cylinder part 105 is formed as a part which covers and covers the wire harness 103. In such an outer tube portion 105, a bent tube portion 106 that is continuous with the panel engaging portion 104 in a bent state as illustrated is formed. A bellows tube portion 107 is also formed so as to be continuous with the bent tube portion 106.

  According to the technology disclosed in Patent Document 1 below, a plurality of ribs 108 are formed on the outer surface of the bent tube portion 106. The rib 108 is disposed and formed in the vicinity of the boundary portion with the bellows tube portion 107. The rib 108 is formed so as to protrude in an annular shape.

  Next, a two-object grommet 121 as shown in FIG. 10B includes a resin inner member 122 and a rubber outer member 123 attached to the outside of the inner member 122. The inner member 122 has a locking portion 125 that is locked to the panel 124 of the automobile, and is attached to the inside of the panel engaging portion 126 of the outer member 123. The outer member 123 includes the panel engagement portion 126 and an exterior cylinder portion 127 that is continuous with the panel engagement portion 126.

  The exterior cylinder part 127 is formed with a bent cylinder part 128 that is continuous with the panel engaging part 126 in a bent state as shown in the figure, and a bellows cylinder part 129 that is continuous with the bent cylinder part 128.

  According to the technology disclosed in Patent Document 1 below, a plurality of ribs 130 are formed on the inner surface of the bent tube portion 128. The rib 130 includes a ring-shaped portion and a portion extending along the tube axis. The ring-shaped part is disposed and formed in the vicinity of the boundary part with the bellows tube part 129, in the vicinity of the boundary part with the panel engagement part 126, and in the middle part thereof.

  Patent Document 1 below also discloses an example in which a single rib extending along the tube axis is added to the bellows tube portion.

JP 2011- 211809 A

  By the way, in the above prior art, although reinforced by the annular rib 108 and the plurality of ribs 130, there is a possibility that unnecessary deformation occurs in the exterior tube portions 105 and 127. Unnecessary deformation is falling or bending, and occurs when an external force such as pulling is applied to the panels 102 and 124 or when the wire harness 103 has a surplus length. If unnecessary deformation occurs, the wire harness 103 may not be routed in accordance with the angle and direction of the outer tube portions 105 and 127 at the time of molding. It will lead to the malfunction of being pinched by an opening-and-closing body (back door etc.).

  This invention is made | formed in view of an above-described situation, and makes it a subject to provide a grommet which can suppress an unnecessary deformation | transformation and can ensure an angle and a direction.

The present invention according to claim 1, which has been made to solve the above-described problems, includes a watertight engagement portion that is watertightly engaged with a member to be attached, and an exterior covering an outside of a linear member that penetrates the attachment target member In the grommet having a tubular portion, the watertight engaging portion has a flat wall and a harness through hole in the wall, and the exterior tubular portion includes a bent tubular portion and a bent tubular portion. A bent bellows portion that is bent in such a way that one end is continuous with the edge of the harness through-hole and the other end is in a direction intersecting the vertical axis of the wall. The bellows tube portion is formed to extend along the vertical axis and to the wall of the watertight engagement portion and to be integrated with the flat surface of the wall to support the exterior tube portion. the angular direction regulating portion is provided, to the perpendicular to the axis of the angular direction restricting portion the bent tube portion When the angle direction restricting portion is viewed in the direction of the angle, the angle direction restricting portion has a substantially triangular portion between a portion integrated with the bellows tube portion and a portion integrated with the watertight engagement portion. a rib having, further, the angular direction regulating unit is characterized hollow rib der Rukoto having a cavity inside.

  According to the present invention having such characteristics, when the watertight engagement portion is engaged with the attachment target member, the watertight engagement portion is in a state of not moving. Moreover, the exterior cylinder part is connected to the watertight engaging part in a state where it does not move at the angular direction restricting part. Therefore, since the exterior tube portion is supported by the angular direction restricting portion, unnecessary deformation can be suppressed even when an external force is applied to the exterior tube portion, for example. If unnecessary deformation of the exterior tube portion can be suppressed, the angle and direction of the exterior tube portion can be secured, and problems such as interference can be prevented. In addition, if the opening / closing body is attached to a certain portion, it is possible to prevent problems such as being caught.

In addition, according to the present invention, since the angular direction restricting portion is formed as a rib having a portion that is substantially triangular when viewed from the above direction, for example, even if an external force is applied to the exterior cylindrical portion, Necessary deformation can be suppressed in shape. As in the present invention, by providing the angular direction restricting portion as a rib having a substantially triangular shape, stress concentration at the bent tube portion and stress at the continuous portion between the bent tube portion and the watertight engagement portion are provided. Concentration can be suppressed. Therefore, strength and durability can be improved. Moreover, according to this invention, since it is a rib which has the part of the shape which becomes a substantially triangle, not a complicated shape but moldability can also be made favorable.

Moreover, according to this invention, since it is a hollow rib which has a cavity part inside, it can make it easy to bend the angle direction control part itself. Therefore, for example, it can be bent at the time of the engagement operation of the watertight engagement portion with respect to the attachment target member to facilitate this operation.

The present invention described in claim 2 is the grommet of claim 1, wherein the angle direction regulating portion is formed by integrally a part of the plurality of peaks and valleys formed in the bellows tube portion It is characterized by that.

  According to the present invention having such a feature, the function of the bellows tube portion is ensured by integrating the angular direction restricting portion with a part of the plurality of peaks and valleys formed in the bellows tube portion. can do. In addition, according to the present invention, the angular direction restricting portion that becomes a substantially columnar rib or a substantially wall-shaped plate rib is integrated with the above-mentioned part, so that a peak portion and a valley located on the opposite side of the integrated portion. The part can have stretchability (or stretchability). If stretchability (extensibility) can be provided, this portion can also function as a stress absorbing portion.

  According to the first aspect of the present invention, since the angular direction restricting portion is provided to connect the exterior tube portion and the watertight engagement portion to support the exterior tube portion, for example, an external force is applied. Also, there is an effect that unnecessary deformation of the exterior cylinder portion can be suppressed. Therefore, according to the present invention, it is possible to secure the angle and direction of the exterior tube portion, and thus it is possible to prevent problems such as interference and pinching.

Moreover, according to this invention, there exists an effect that the better shape of an angle direction control part can be provided.

According to the present invention described in claim 2 , in addition to the effect described in claim 1, the following effect is also achieved. That is, even if an angular direction restricting portion is provided in the bellows tube portion, the function of the bellows tube portion can be secured, and the bellows tube portion can have a function as a stress absorbing portion. .

It is a block diagram which concerns on the grommet of this invention (Example 1). It is a perspective view of a grommet. It is a perspective view of a grommet. It is a perspective view of the grommet used as a comparative example. (Example 2) which is a perspective view of the grommet used as another example. It is a perspective view of the grommet used as another example (Example 3). (Example 4) which is a perspective view of the grommet used as another example. (Example 5) which is a perspective view of the grommet used as another example. It is a perspective view of the grommet used as another example (Example 6). It is sectional drawing of the grommet of a prior art example.

  The grommet includes a watertight engaging portion that is watertightly engaged with a member to be attached, an exterior cylindrical portion having a bent cylindrical portion and a bellows cylindrical portion, and a watertight engaging portion that extends from the external cylindrical portion toward the watertight engaging portion. And an angular direction restricting portion integrated with each other.

  Embodiment 1 will be described below with reference to the drawings. FIG. 1 is a configuration diagram according to the grommet of the present invention. 2 and 3 are perspective views of the grommet, and FIG. 4 is a perspective view of a grommet as a comparative example.

  In FIG. 1, the grommet 1 is not particularly limited, but is provided as two objects, and is provided as a vehicle such as an automobile. The grommet 1 includes an inner member 2 that is made of resin and is hard, and an outer member 3 that is made of rubber (for example, EPDM or elastomer) that is attached to the outside of the inner member 2 and is soft. In this embodiment, the grommet 1 is attached to a panel (attachment target member, not shown) and an opening / closing body (attachment target member, not shown), and is wired across the wire harness (linear member; illustration). (Omitted) is provided for the exterior.

  In addition, a door, a trunk, etc. shall be mentioned as said opening / closing body. This opening / closing body may be read as a movable body. In addition to the panel, a body frame and the like are also exemplified.

  The inner member 2 is a molded product of resin, and the inner member 2 is formed with a harness fixing portion 4 for fixing the wire harness and a locking portion (not shown). The inner member 2 has a main body part attached to the inner side of a panel engaging portion 5 to be described later of the outer member 3 or to an inner side of an opening / closing body engaging portion to be described later. Has a structure. Here, the inner member 2 is assumed to have a known structure, and detailed description thereof is omitted.

  1 and 2, the outer member 3 corresponds to a so-called grommet body, a panel engagement portion 5 (watertight engagement portion), an exterior cylinder portion 6 having one end continuous with the panel engagement portion 5, and an exterior An opening / closing body engaging portion (watertight engaging portion) (not shown) continuous with the other end of the cylindrical portion 6 is configured. Moreover, the outer member 3 is comprised including the angle direction control part 7 used as the characteristic part of this invention.

  The panel engaging portion 5 is formed in a shape that is watertightly engaged with a vehicle panel. Moreover, the panel engaging part 5 is also formed in the shape which hold | maintains the inner member 2 inside this. The panel engaging portion 5 has an upper wall 8 having a flat upper surface. A harness insertion hole (not shown) is formed at a substantially central position of the upper wall 8. One end of the outer cylinder portion 6 is coupled to the edge portion of the harness insertion hole. When the inner member 2 is attached to the inner side of the outer member 3, the upper wall 8 becomes a portion with added rigidity.

  The exterior cylinder part 6 is a cylindrical part which covers the outer side of a wire harness, and is formed in the length considered the opening / closing movement of the opening-closing body. Moreover, since the outer member 3 is made of rubber (or made of elastomer), the outer cylinder portion 6 is also formed in a shape that can follow the opening / closing movement of the opening / closing body. The exterior cylinder part 6 has flexibility, and a bent cylinder part 9, a bellows cylinder part 10, and a straight cylinder part 11 are formed on the panel engagement part 5 side of the exterior cylinder part 6 as described above.

  The bent cylinder portion 9 is formed (formed) so as to be continuous with the panel engaging portion 5 in a bent state. Specifically, it is formed in a state in which one end of the bent tube portion 9 is continuous with the edge portion of the harness insertion hole of the panel engaging portion 5 and the other end is bent so as to face the direction intersecting the vertical axis of the upper wall 8. Is done. The angle θ and the direction D of the outer tube portion 6 are determined by the bent state of the bent tube portion 9.

  The bellows tube portion 10 is a bent portion in the outer tube portion 6 and is formed in a known bellows tube shape having a plurality of peaks 12 and valleys 13. The bellows tube portion 10 is formed so that one end thereof is continuous with the other end of the bent tube portion 9 and extends straight at a predetermined length (the bellows tube portion 10 is formed of the mountain portion 12 in this embodiment. It is formed in a length of seven).

  The straight tube portion 11 is a straight tube portion of the exterior tube portion 6, and one end of the straight tube portion 11 is continuous with the other end of the bellows tube portion 10, and is formed to extend straight at a predetermined length. Further, the other end of the straight tube portion 11 is formed so as to be continuous with the bellows tube portion on the opening / closing body engaging portion side or directly with respect to the opening / closing body engaging portion. The straight tube portion 11 may be replaced with the bellows tube portion 10 without providing the straight tube portion 11.

  The angle direction restricting portion 7 is a portion that suppresses unnecessary deformation of the exterior tube portion 6 and secures the angle θ and the direction D, and extends straight from the bellows tube portion 10 to the upper wall 8 of the panel engaging portion 5. It forms so that it may integrate, and the exterior cylinder part 6 can be supported. Specifically, it is formed in a substantially columnar (in this case, a quadrangular columnar) rib shape extending straight along the vertical axis of the upper wall 8 (the shape is an example). Further, the angular direction restricting portion 7 is formed relatively thick.

  In addition, the thickness of the angle direction control part 7 shall be suitably set in consideration of the influence by the external force added to the exterior cylinder part 6, and the extra length of a wire harness. The angle direction restricting portion 7 may be either solid or hollow (in this embodiment, solid is adopted. In the case of being hollow, it will be described later in Embodiments 3 to 6).

  In this embodiment, the angular direction restricting portion 7 is integrated with three of the seven peak portions 12 and is also integrated with the two valley portions 13 between the three peak portions 12. Arrangement is formed. Since the angular direction restricting portion 7 is arranged as described above, the bellows tube portion 10 can sufficiently ensure this function.

  The angular direction restricting portion 7 is integrated with the bellows tube portion 10, so that the opposite side of the integrated portion is the bellows extension portion 14, and the straight tube portion 11 side of the bellows extension portion 14 is the bellows bending portion. Can be 15. That is, as shown in FIG. 3, the bellows extension portion 14 is spaced apart from the crest portion 12 by bending the outer cylinder portion 6 (for example, bending accompanying opening / closing movement of the opening / closing body), and the bellows bending portion 15 is It can be expanded and contracted in accordance with the bending of the cylindrical portion 6 so as to be in a predetermined bent state. Since the interval between the peak portions 12 extends, the bellows extension portion 14 can function as a stress absorbing portion.

  By providing the angle direction restricting portion 7 as described above, an effect that the angle θ and the direction D can be secured while suppressing unnecessary deformation (falling or bending at the bent tube portion 9) of the outer tube portion 6 is achieved. Play. If the angle θ and the direction D can be secured, it is possible to prevent problems such as interference with the vehicle and being caught between opening and closing bodies.

  Further, by providing the angular direction restricting portion 7, it is possible to suppress the stress concentration at the bent tube portion 9 and the stress concentration at the continuous portion between the bent tube portion 9 and the panel engaging portion 5. . Further, if the stress concentration can be suppressed, the durability can be improved.

  In addition, by providing the angular direction restricting portion 7, it is possible to prevent the outer tube portion 6 from being broken.

  If the angular direction restricting portion 7 is not provided, there is a possibility that the bent tube portion 202 may fall down or bend like a grommet 201 shown as a comparative example in FIG. That is, since the angle θ and the direction D (see FIG. 2) cannot be secured, there is a concern that the vehicle may interfere with the vehicle or be sandwiched between opening and closing bodies.

  As described above with reference to FIGS. 1 to 4, the grommet 1 of the present invention has an effect that the angle θ and the direction D can be secured while suppressing unnecessary deformation.

  Here, the characteristics of the grommet 1 in the case of the above configuration and structure will be summarized.

(1) A grommet 1 having an inner member 2 having a locking portion and made of a hard material, and an outer member 3 attached to the outside of the inner member 2 and made of a soft material,
The outer member 3 includes a watertight engagement portion (panel engagement portion 5) that is watertightly engaged with the attachment target member by engaging the engagement portion of the inner member 2 with the attachment target member, and the attachment target member. In the grommet 1 having the exterior cylinder portion 6 that covers the outside of the linear member that penetrates
The exterior cylinder part 6 has a bent cylinder part 9 that continues in a bent state with respect to the watertight engagement part, and a bellows cylinder part 10 that continues to the bent cylinder part 9,
The grommet 1 is characterized in that the bellows tube portion 10 is provided with an angle direction regulating portion 7 extending toward the watertight engagement portion and integrated with the watertight engagement portion.

(2) In the grommet 1 of (1) above,
The angular direction restricting portion 7 is a rib formed in a substantially columnar shape, and the angular direction restricting portion 7 is integrated with a part of the plurality of peak portions 12 and valley portions 13 formed in the bellows cylinder portion 10. Grommet 1 characterized by

(3) In the grommet 1 of the above (1) to (2),
The grommet 1 is mounted across a panel (the mounting target member) and an opening / closing body provided in a vehicle, and the hard material is a resin material, and the soft material is an elastomer or a rubber classified into the elastomer. The grommet 1 is characterized in that the linear member is a wire harness.

  Embodiment 2 will be described below with reference to the drawings. FIG. 5 is a perspective view of another example of the grommet. Note that the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  In FIG. 5, the grommet 31 is provided as a single object although not particularly limited, and is provided as a vehicle such as an automobile. Further, the grommet 31 is provided as a soft product made of rubber (for example, EPDM or elastomer). Such a grommet 31 includes a panel engaging portion 5, an exterior cylinder portion 6 having one end continuous with the panel engagement portion 5, and an unillustrated opening / closing body engagement portion continuing to the other end of the exterior cylinder portion 6. Consists of including. Moreover, the grommet 31 is comprised including the angle direction control part 32 used as the characteristic part of this invention.

  The angle direction restricting portion 32 is a portion that suppresses unnecessary deformation of the exterior tube portion 6 and secures the angle θ and the direction D, and extends straight from the bellows tube portion 10 to the upper wall 8 of the panel engaging portion 5. Are formed so as to be integrated with each other and so that the outer tube portion 6 can be supported. Specifically, it is formed in a substantially wall-shaped plate rib shape extending straight along the vertical axis of the upper wall 8 (the shape is an example).

  The angular direction restricting portion 32 is formed in the illustrated shape having a plate rib main body 32a and a bellows integrated portion 32b. In the present embodiment, the bellows integrated part 32b is integrated with three of the seven peak parts 12, and is also integrated with the two valley parts 13 between the three peak parts 12. Arrangement is formed.

  The angular direction restricting portion 32 can exhibit the same function although the shape is different from that of the angular direction restricting portion 7 (see FIGS. 1 to 3) of the first embodiment. Therefore, the grommet 31 also has an effect that the angle θ and the direction D can be secured while suppressing unnecessary deformation.

  Embodiment 3 will be described below with reference to the drawings. FIG. 6 is a perspective view of another example of the grommet and a cross-sectional view of the angular direction restricting portion. Note that the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  In FIG. 6, the grommet 41 is not particularly limited, but is provided as two objects, and is provided as a vehicle such as an automobile. Further, the grommet 41 is provided as a soft product made of rubber (for example, EPDM or elastomer). Such a grommet 41 includes a panel engaging portion 5, an exterior cylinder portion 6 having one end continuous with the panel engagement portion 5, and an unillustrated opening / closing body engagement portion continuing to the other end of the exterior cylinder portion 6. Consists of including. Moreover, the grommet 41 is comprised including the angle direction control part 42 used as the characteristic part of this invention.

  The angle direction restricting portion 42 is a portion that suppresses unnecessary deformation of the exterior tube portion 6 and secures the angle θ and the direction D, and extends from the bellows tube portion 10 to the upper wall 8 of the panel engaging portion 5. It forms so that it may integrate, and the exterior cylinder part 6 can be supported. The angular direction restricting portion 42 is formed in a rib shape extending along the vertical axis of the upper wall 8. The vertical axis is assumed to be parallel to the axis of the angular direction restricting portion 42 (see arrow P).

  Here, assuming that an arrow in a direction perpendicular to the arrow P and viewing the bent tube portion 9 is Q, the angular direction restricting portion 42 is formed in a shape having the following characteristics when viewed from the arrow Q direction. The In other words, the angular direction restricting portion 42 has a shape of a hollow rib having a shape that extends in a substantially triangular shape from the bellows integrated portion 42a integrated with the bellows tube portion 10 toward the panel engaging portion 5 and has a hollow portion 42b on the inside. It is formed.

  In the angular direction restricting portion 42, reference numeral 42 c indicates a triangular support wall, 42 d indicates an inclined side wall, and 42 e indicates a panel integrated portion integrated with the panel engaging portion 5. The top of the triangular support wall 42c constitutes a bellows integrated part 42a that is integrated with the bellows cylinder part 10. In the angular direction restricting portion 42, the thickness of each wall is appropriately set. Depending on the thickness, a hollow portion 42b which is an internal space is formed. By forming the hollow portion 42b, a certain degree of bending can be allowed. In addition, the bellows integrated part 42a is disposed and formed so as to be integrated across the three peak parts 12 and the two valley parts 13 like the bellows integrated part 32b of the first embodiment.

  As described above, since the angle direction restricting portion 42 is a portion having a substantially triangular shape when viewed from the direction of the arrow P, that is, a rib having the triangular support wall 42c, even if an external force is applied to the exterior tube portion 6, for example Unnecessary deformation of the cylindrical portion 9 can be suppressed in shape. By providing the angle direction restricting portion 42 as a rib having a triangular support wall 42c as in the present embodiment, stress concentration in the bent tube portion 9 and the continuous portion between the bent tube portion 9 and the panel engaging portion 5 are achieved. Stress concentration can be suppressed. Therefore, there is an effect that strength and durability can be improved. As in the first and second embodiments, the present embodiment has an effect that the angle θ and the direction D can be secured while suppressing unnecessary deformation of the grommet 41.

  Moreover, since the angle direction regulation part 42 of a present Example is not a complicated shape, there also exists an effect that the moldability of the grommet 41 can be made favorable. Furthermore, since the angle direction restricting portion 42 of the present embodiment is a hollow rib having a hollow portion 42b on the inside, bending can be allowed, and therefore an engagement operation when the panel engaging portion 5 is attached. There is also an effect that it can be made easier.

  Embodiment 4 will be described below with reference to the drawings. FIG. 7 is a perspective view of another example of the grommet and a cross-sectional view of the angular direction restricting portion. Note that the same components as those in the third embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  In FIG. 7, a grommet 51 is a modification of the grommet 41 of the third embodiment, and only the angular direction regulating portion 52 is different. The angle direction restricting portion 52 has a substantially triangular shape from the bellows integrated portion 52a integrated with the bellows cylinder portion 10 toward the panel engaging portion 5 as viewed from the direction of the arrow Q, and a portion of this shape. A rectangular portion that is continuously integrated with the panel engaging portion 5, and has a hollow portion 52 b inside. The angular direction restricting portion 52 is formed in a hollow rib shape.

  In the angular direction restricting portion 52, reference numeral 52c is a triangular support wall, 52d is an inclined side wall, 52e is a square support wall, 52f is a square side wall, and 52g is a panel integrated portion integrated with the panel engaging portion 5. The top of the triangular support wall 52c constitutes a bellows integrated part 52a that is integrated with the bellows cylinder part 10. In the angle direction restricting portion 52, the thickness of each wall is appropriately set. A cavity 52b, which is an internal space, is formed according to the thickness.

  The present embodiment is a modification of the third embodiment, and of course has the same effect. That is, since the angle direction restricting portion 52 is a rib having a substantially triangular shape when viewed from the direction of the arrow P, there is an effect that strength and durability can be improved as in the third embodiment. . In addition, there is an effect that the angle θ and the direction D can be secured while suppressing unnecessary deformation of the grommet 51. Furthermore, there is an effect that it is possible to improve the moldability and to facilitate the engaging work when the panel engaging portion 5 is attached.

  Embodiment 5 will be described below with reference to the drawings. FIG. 8 is a perspective view of another example of the grommet and a cross-sectional view of the angular direction restricting portion. Note that the same components as those in the third and fourth embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  In FIG. 8, a grommet 61 is a modification of the grommets 41 and 51 of the third and fourth embodiments, and only the angular direction restricting portion 62 is different. The angle direction restricting portion 62 has a pair of substantially triangular portions from the bellows integrated portion 62a integrated with the bellows cylinder portion 10 toward the panel engaging portion 5 when viewed from the arrow Q direction, and The cavity portion 62b is provided inside. The angular direction restricting portion 62 is formed in a hollow rib shape.

  In the angular direction restricting portion 62, reference numeral 62c is a triangular support wall, 62d is a side wall, 62e is a constricted portion formed on the side wall 62d, and 62f is a panel integrated portion integrated with the panel engaging portion 5. The pair of triangular support walls 62c are arranged and formed so that the top portions thereof are continuous with each other. In the angular direction restricting portion 62, the thickness of each wall is appropriately set. A cavity 62b, which is an internal space, is formed according to the thickness.

  This embodiment is a modification of the third and fourth embodiments, and of course has the same effect. That is, since the angle direction restricting portion 62 is a rib having a pair of substantially triangular portions when viewed from the direction of the arrow P, the strength and durability can be improved as in the third and fourth embodiments. There is an effect. In addition, there is an effect that the angle θ and the direction D can be secured while suppressing unnecessary deformation of the grommet 61. Furthermore, there is an effect that it is possible to improve the moldability and to facilitate the engaging work when the panel engaging portion 5 is attached.

  Embodiment 6 will be described below with reference to the drawings. FIG. 9 is a perspective view of another example of the grommet and a cross-sectional view of the angular direction restricting portion. In addition, the same code | symbol is attached | subjected to the fundamentally same component as the said Examples 3-5, and detailed description is abbreviate | omitted.

  In FIG. 9, a grommet 71 is a modification of the grommets 41, 51, 61 of the third to fifth embodiments, and only the angular direction restricting portion 72 is different. The angle direction restricting portion 72 is a pair of substantially triangular portions (the shape will be described later) from the bellows integrated portion 72a integrated with the bellows cylinder portion 10 toward the panel engaging portion 5 when viewed from the arrow Q direction. ) And a cavity 72b inside. The angular direction restricting portion 72 is formed in a hollow rib shape.

  In the angular direction restricting portion 72, reference numeral 72c denotes a triangular support wall, 72d denotes a side wall, 72e denotes a bulge portion formed on the side wall 72d, and 72f denotes a panel integrated portion integrated with the panel engaging portion 5. The pair of triangular support walls 72c are arranged and formed so that the bottom sides thereof are continuous. In the present embodiment, the pair of triangular support walls 72c is not a pair of substantially triangular shapes when viewed from the direction of the arrow Q because the bellows integrated portion 72a and the panel integrated portion 72f are formed large as shown in the figure. Rather, it has a shape close to a substantially trapezoid. In other words, if the strength is good, it is not necessary to be limited to a strict triangle.

  In the angular direction restricting portion 72, the thickness of each wall is appropriately set. A hollow portion 72b, which is an internal space, is formed according to the thickness.

  This embodiment is a modification of the above embodiments 3 to 5, and of course has the same effect. That is, since the angle direction restricting portion 72 is a rib having a pair of substantially triangular portions when viewed from the direction of the arrow P, the strength and durability can be improved as in the third to fifth embodiments. There is an effect. In addition, there is an effect that the angle θ and the direction D can be secured while suppressing unnecessary deformation of the grommet 71. Furthermore, there is an effect that it is possible to improve the moldability and to facilitate the engaging work when the panel engaging portion 5 is attached.

  In addition, the present invention can of course be modified in various ways within the scope not changing the gist of the present invention.

  DESCRIPTION OF SYMBOLS 1 ... Grommet, 2 ... Inner member, 3 ... Outer member, 4 ... Harness fixing part, 5 ... Panel engaging part (watertight engaging part), 6 ... Exterior cylinder part, 7 ... Angular direction control part, 8 ... Upper wall , 9 ... Bent cylinder part, 10 ... Bellows cylinder part, 11 ... Straight cylinder part, 12 ... Mountain part, 13 ... Valley part, 14 ... Bellows extension part, 15 ... Bellows bending part, 31 ... Grommet, 32 ... Angular direction regulation Part, 32a ... plate rib body, 32b ... bellows integrated part, 41, 51, 61, 71 ... grommet, 42, 52, 62, 72 ... angular direction regulating part, 42b, 52b, 62b, 72b ... hollow part, 42c , 52c, 62c, 72c ... Triangular support wall (a portion having a substantially triangular shape)

Claims (2)

In the grommet having a watertight engagement portion that is watertightly engaged with the attachment target member, and an exterior cylinder portion that covers the outside of the linear member that penetrates the attachment target member,
The watertight engagement portion has a flat wall and a harness through hole in the wall,
The exterior cylinder part has a bent cylinder part and a bellows cylinder part continuous to the bent cylinder part,
The bent tube portion is formed in advance in a state where one end is continuous with the edge of the harness through hole and the other end is bent in a direction intersecting the vertical axis of the wall;
The bellows tube portion has an angular direction restriction that extends along the vertical axis and toward the wall of the watertight engagement portion and is integrated with the flat surface of the wall to support the exterior tube portion. Set up a section ,
When the angular direction restricting portion is viewed in a direction perpendicular to the axis of the angular direction restricting portion and toward the bent tube portion, the angle direction restricting portion is changed from the portion integrated with the bellows tube portion to the watertight engagement portion. It is a rib having a substantially triangular shape between the parts to be integrated,
Furthermore, the angular direction regulating portion, the grommet, wherein the Ru hollow ribs der having a cavity inside. The grommet according to claim 1 ,
The angular direction regulating portion, the grommet, wherein ing integrated into some of the plurality of peaks and valleys formed in the bellows tube portion.

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